Brockdorff J, Williams S, Couture C, Mustelin T
La Jolla Institute for Allergy and Immunology, San Diego, California, USA.
Eur J Immunol. 1999 Aug;29(8):2539-50. doi: 10.1002/(SICI)1521-4141(199908)29:08<2539::AID-IMMU2539>3.0.CO;2-M.
Studies with motheaten mice, which lack the SHP1 protein tyrosine phosphatase, indicate that this enzyme plays an important negative role in T cell antigen receptor (TCR) signaling. The physiological substrates for SHP1 in T lymphocytes, however, have remained unclear or controversial. To define these targets for SHP1 we have compared the effects of constitutively active and inactive mutants of SHP1 on TCR signaling. Expression of wild-type SHP1 had a very small effect on the TCR-induced tyrosine phosphorylation of ZAP-70 and Syk, even when SHP1 was overexpressed 20 - 100-fold over endogenous SHP1. Inactive SHP1-D421A and wild-type SHP2 were without effects. Constitutively active SHP1-DeltaSH2 had a more pronounced effect on ZAP-70 and Syk, even when expressed at near physiological levels. SHP1-DeltaSH2 also inhibited events downstream of ZAP-70 and Syk, such as activation of the mitogen-activated protein kinase Erk2 and the transcriptional activation of the interleukin-2 gene. In contrast, a constitutively active SHP2-DeltaSH2 had no statistically significant effect (although it caused a slight augmentation in some individual experiments). None of the constructs influenced the anti-CD3-induced tyrosine phosphorylation of the TCR zeta-chain or phospholipase Cgamma1, indicating that Src family kinase function was intact. Taken together, our findings support the notion that ZAP-70 and Syk can be direct substrates for SHP1 in intact cells. However, the two SH2 domains of SHP1 did not facilitate its recognition of ZAP-70 and Syk as substrates in intact cells. Therefore, we suggest that SHP1 is not actively recruited to inhibit TCR signaling induced by ligation of this receptor alone. Instead, we propose that ligation of a distinct inhibitory receptor leads to the recruitment of SHP1 via its SH2 domains, activation of SHP1 and subsequently inhibition of TCR signals if the inhibitory receptor is juxtaposed to the TCR.
对缺乏SHP1蛋白酪氨酸磷酸酶的噬齿小鼠进行的研究表明,该酶在T细胞抗原受体(TCR)信号传导中发挥重要的负性作用。然而,SHP1在T淋巴细胞中的生理底物仍不明确或存在争议。为了确定SHP1的这些作用靶点,我们比较了SHP1组成型活性和非活性突变体对TCR信号传导的影响。野生型SHP1的表达对TCR诱导的ZAP - 70和Syk的酪氨酸磷酸化影响非常小,即使SHP1的表达量比内源性SHP1高20 - 100倍。无活性的SHP1 - D421A和野生型SHP2没有作用。组成型活性的SHP1 - ΔSH2对ZAP - 70和Syk有更显著的影响,即使在接近生理水平表达时也是如此。SHP1 - ΔSH2还抑制ZAP - 70和Syk下游的事件,如丝裂原活化蛋白激酶Erk2的激活和白细胞介素 - 2基因的转录激活。相比之下,组成型活性的SHP2 - ΔSH2没有统计学上的显著影响(尽管在一些个别实验中它引起了轻微的增强)。所有构建体均未影响抗CD3诱导的TCR ζ链或磷脂酶Cγ1的酪氨酸磷酸化,表明Src家族激酶功能完整。综上所述,我们的研究结果支持ZAP - 70和Syk可以是完整细胞中SHP1的直接底物这一观点。然而,SHP1的两个SH2结构域在完整细胞中并未促进其将ZAP - 70和Syk识别为底物。因此,我们认为SHP1不会被主动募集来抑制仅由该受体的连接诱导的TCR信号传导。相反,我们提出,不同抑制性受体的连接会导致SHP1通过其SH2结构域被募集,SHP1被激活,随后如果抑制性受体与TCR并列,则抑制TCR信号。
